An evaluation on the Wilson Reading Program for students ...
Transcript of An evaluation on the Wilson Reading Program for students ...
Rowan University Rowan University
Rowan Digital Works Rowan Digital Works
Theses and Dissertations
7-30-2015
An evaluation on the Wilson Reading Program for students with An evaluation on the Wilson Reading Program for students with
learning disabilities: a longitudinal study learning disabilities: a longitudinal study
Rosemarie Harrison
Follow this and additional works at: https://rdw.rowan.edu/etd
Part of the Special Education and Teaching Commons
Recommended Citation Recommended Citation Harrison, Rosemarie, "An evaluation on the Wilson Reading Program for students with learning disabilities: a longitudinal study" (2015). Theses and Dissertations. 325. https://rdw.rowan.edu/etd/325
This Thesis is brought to you for free and open access by Rowan Digital Works. It has been accepted for inclusion in Theses and Dissertations by an authorized administrator of Rowan Digital Works. For more information, please contact [email protected].
AN EVALUATION ON THE WILSON READING PROGRAM FOR STUDENTS WITH LEARNING DISABILITIES: A LONGITUDINAL STUDY
By Rosemarie T. Harrison
A Thesis
Submitted to the Department of Language, Literacy and Special Education
College of Education In partial fulfillment of the requirement
For the degree of Master of Arts in Special Education
at Rowan University
June 14, 2015
Thesis Chair: Joy Xin, Ed.D.
© 2015 Rosemarie T. Harrison
Dedication
I dedicate this manuscript to my family, who shares in my enthusiasm for higher
education.
iv
Acknowledgements
I would like to express my sincere appreciation to my professor, Dr. Xin, who has
guided me on my path to completion of a Masters Degree in Special Education. Thank
you for your knowledge, patience and understanding.
I would like to acknowledge my husband, Julian, who has supported me
throughout my ten years of graduate studies. Thank you for sharing my dream.
I would like to thank my children, Christian, Kyle and Katie for their patience
while I spent countless nights and weekends writing papers.
Thank you to my mother, Nancy McGovern, who was always there to take care of
my children while I was attending classes.
v
Abstract
Rosemarie Harrison AN EVALUATION ON THE WILSON READING PROGRAM FOR STUDENTS
WITH LEARNING DISABILITIES: A LONGITUDINAL STUDY 2014-2015
Joy Xin, Ed. D. Master of Arts in Special Education
The purpose of this study was to examine the effects of the Wilson Reading Program
as a supplemental reading program for students with disabilities. A school district’s
student decoding and comprehension scores in three years were reviewed and synthesized
for the program evaluation. The analysis of variance (ANOVA) with a repeated measure
was used to compare possible differences of student performance in decoding and word
recognition, and overall reading skills at each grade level respectively. It was found that
the Wilson Reading Program had a significant effect on students’ Word Reading Scores
in Year 2 of the intervention, but not significant on Year 3, although their scores were
increased compared to Year 1. This indicates that novelty of the program may have a
great impact on students’ reading performance. Although the findings are not consistent
from one group to another, there seems to be some correlation between Word Reading
and Measurement of Academic Progress (MAP) scores.
vi
Table of Contents
Abstract ............................................................................................................................v
List of Figures ..................................................................................................................viii
List of Tables ...................................................................................................................ix
Chapter 1: Introduction ....................................................................................................1
Statement of Problems ...............................................................................................1
Significance of the Study ...........................................................................................5
Statement of Purposes ................................................................................................6
Research Questions ....................................................................................................6
Chapter 2: Review of the Literature .................................................................................8
The Orton-‐Gillingham Approach .............................................................................9
Alphabetic Phonics-Based Reading Programs ..........................................................11
Other Multisensory Teaching Approaches ................................................................14
Wilson Reading Program ...........................................................................................17
Summary ....................................................................................................................20
Chapter 3: Method ...........................................................................................................22
Context of the Study .................................................................................................22
Setting ................................................................................................................22
Participants .........................................................................................................22
Measurement ......................................................................................................23
Procedure ...........................................................................................................24
Data Analysis .....................................................................................................25
vii
Table of Contents (Continued)
Chapter 4: Results ............................................................................................................26
Chapter 5: Discussion ......................................................................................................32
Limitations .................................................................................................................36
Conclusion .................................................................................................................37
References .......................................................................................................................39
viii
List of Figures
Figure Page
Figure 1. Means of word reading accuracy versus MAP scores of Group 1 ...................29
Figure 2. Means of word reading accuracy versus MAP scores of Group 2 ...................29
ix
List of Tables
Table Page
Table 1. Means and Standard Deviations of Real Word Reading scores of Students in Grade 5, 6, 7 and 8 for 3 Years ....................................................................27 Table 2. Means and Standard Deviations of MAP Sores of Students in Grade 5, 6, 7 and 8 for 3 Years .......................................................................................28 Table 3. Correlation Coefficients of Real Word Reading versus MAP Scores of Students in Grade 5, 6, 7 and 8 for 3 Years ................................................................30 Table 4. Correlation Coefficients of Overall Real Word Reading versus MAP Scores of 3 Years in Grade 5, 6, 7 and 8 ...............................................................31
1
Chapter 1
Introduction
Statement of Problems
The state of New Jersey recently passed three new law sections with the intention
to improve learning outcomes of students struggling with reading. Law P.L. 2013, c.131
requires the state’s Department of Education to incorporate the definition of Dyslexia into
Chapter 14 of Title 6A of the Administration Code. Law P.L. 2013, c.105 mandates
teacher training to understand Dyslexia and ways to teach these children with appropriate
instructional methods to improve their reading. Law P.L. 2013, c.210 requires the state
providing school districts with information for screening students for Dyslexia
(http://education.state.nj.us, 2014).
The International Dyslexia Association (IDA) (2002) defines dyslexia as a
specific learning disability that is neurological in origin. Children with Dyslexia have
difficulties with accurate and/or fluent word recognition, poor spelling and decoding
skills. These difficulties typically result from a deficit in the phonological component of
language that is often unexpected in relation to other cognitive abilities and the provision
of effective classroom instruction. Further, students with dyslexia also have problems in
reading comprehension and vocabulary development because of their limited background
knowledge (International Dyslexia Association, 2002). The National Reading Panel
(2000) reported that a combination of phonemic awareness, phonics, fluency, guided oral
reading, vocabulary and reading comprehension is effective for teaching reading.
Phonemic awareness is the understanding of spoken words that consist of separate units
of sound blended together for pronunciation. It requires a reader to isolate the different
2
sound elements in a word, and analyze and interpret these sounds (Spafford & Grosser,
2005). Phonemic awareness is the basis for all other reading tasks. It also requires the
reader to notice how letters represent sounds, and prepares for sounding out and decoding
a word. Phonics is the relationship between written letters and spoken sounds. It will help
children to decode new words and recognize familiar words accurately and automatically
(http://www2.ed.gov/print/parents/read/resources/readingtips/part.html, 2003).
Fluency requires a reader to recognize words, read text accurately with speed and
expression, and to understand what is read. This skill is greatly affected by a reader’s
decoding skills. Readers who lack fluency often read slowly, relying on decoding
individual words rather than recognizing words automatically. As a result, their
understanding of the reading text will be affected (National Reading Panel, 2000,
http://www.nichd.nih.gov/research/supported/Pages/nrp.aspx/, 2010).
Vocabulary development includes learning words by sounding out and
understanding meaning. In order to become a fluent reader, written and spoken words
should be expanded with understanding of their meanings and applications. Word
pronunciation will help children recognize words in the printed text, and understanding of
the word meanings will support their reading
(https://education.ucf.edu/mirc/Research/Closer%20Look.pdf, 2000).
Reading comprehension involves constructing meaning that is reasonable and
accurate by connecting what is read to what the reader already knows and to think about
all of this information until it is understood. This is the final goal of reading, to
understand, remember and communicate what is being read
(https://education.ucf.edu/mirc/Research/Closer%20Look.pdf, 2000).
3
In the reading process, a reader often progresses from manipulating sounds
(phonemic awareness) to combining phonemes (phonics), then to building higher-level
reading skills such as fluency, vocabulary development and reading comprehension.
Lacking the foundational skills of phonemic awareness and phonics, a child will have
difficulty in reading, and may lag behind his/her peers. Thus, the main focus during the
primary grades is “learning to read,” but thereafter it becomes “reading to learn” (Chall,
1983; cited by Leach, Scarborough & Rescorla, 2003, pg. 211).
It is estimated that approximately 85% of students with a learning disability have
a primary problem with reading and related language skills
(http://www.ldonline.org/article/Dyslexia_Basics, 2010). According to Catts and Hogan
(2003), “most poor readers have significant problems learning to decode words and
children with reading disabilities (RD) have deficits in phonological awareness and
phonics skills” (Bradley & Bryant, 1983; Fletcher et al., 1994; Fox & Routh, 1980;
Olson, Wise, Conners, Rack, & Fulker, 1989 as cited in Catts & Hogan, 2003).
Because of the potential impact of literacy problems, educators have actively
pursued the development of effective programs for the early identification of reading
disabilities and related intervention strategies (Snow, Burns & Griffin, 1998, cited by
Catts & Hogan, 2003). The International Dyslexia Association (2014) recommends a
multisensory structured teaching approach for instructing students with dyslexia.
Multisensory teaching involves the use of visual, auditory, and kinesthetic-tactile
pathways simultaneously to enhance a learner’s memory in learning of written language.
The Orton-Gillingham approach (http://www.ortonacademy.org/approach.php, 2012) to
reading is a multisensory approach for instruction with structured and sequential lessons
4
to teach cumulative skills with flexible adjustments for teachers with visual, auditory, and
kinesthetic reinforcements (Spafford and Grosser, 2005).
Based on the Orton-Gillingham approach, another remedial reading program
called the Wilson Reading Program was developed in 1988. It focuses on word studies,
spelling, fluency and comprehension to support children with reading and language
difficulty. According to the description of Wilson Language, the Wilson Reading
Program is a research-based reading and writing program. It is a complete curriculum for
teaching decoding and encoding (spelling) skills with phoneme segmentation. The
purpose of the Wilson Reading Program is to teach students fluent decoding and
encoding skills to the mastery level. Further, this program emphasizes the structure of
words in the English Language for students to master the coding skills for reading and
spelling. Unlike other programs that overwhelm the student with rules, the language
system of English is presented in a systematic and cumulative manner for easy
management. It provides an organized, sequential system with extensive controlled text
to help teachers implement in class
(http://www.wilsonlanguage.com/FS_PROGRAM_WRS.htm, 2004).
The effects of the Wilson Reading Program on decoding, fluency and reading
comprehension were examined for beginning readers by Torgesen, et al. (2007). Using
the Woodcock Reading Mastery Test–Revised (WRMT–R, 1987), a significant increase
on scores of word identification and word attack was found. It seems that such a program
is helpful to teach basic decoding skills for word identification, however, no significant
effect was found on oral reading fluency and passage comprehension. Another study
based on the Orton-Gillingham approach called the Dyslexia Training Program (DTP)
5
followed students over 2 years. Results showed that students demonstrated significantly
higher word recognition and reading comprehension compared with a control group.
During the program, students who were trained in this Orton-Gillingham-derived method
made significant gains in decoding nonsense words, word recognition, and reading
comprehension comparing with those who were not taught by such explicit instruction
(Oakland, et. al., 1998). It indicated that a longer time period of 2 years would give
learners more time to practice an alphabetic decoding strategy, and yield positive results,
while short term instruction may not be sufficient time for both teacher and students
(Stanovich, 1980; cited by Oakland, et. al., 1998). Thus, a longitudinal study tracing
student performance of 3 years seems important to evaluate a reading program such as
Wilson Reading Program. To date, little research has been found to evaluate the Wilson
Reading Program for children with disabilities. This study attempts to examine student
performance data, of a school district, for a period of three years when the Wilson
program was provided.
Significance of the Study
The Wilson Reading Program is a supplemental program of reading instruction
for learners of all ages. It has been shown to have a positive impact on the reading of
students with a reading disability (RD) or learning disability (LD)(Wilson & O’Connor,
1995, cited by Stebbins, Stormont, Lembke, Wilson & Clippard, 2012). However, a
longitudinal study tracking students for 3 years to report their learning outcomes is hardly
found in research. With all the different theories about struggling readers, as well as all
the supplemental programs on the market, teachers and school administrators need to
know the effective reading programs for particular student populations. In addition, with
6
the high cost of supplemental reading programs, resources related to reading programs
are needed to address all reading areas such as decoding, fluency, and comprehension to
meet students’ needs.
The present study was designed to examine the effect of the Wilson Reading
Program as a supplemental reading program for students with disabilities. It attempted to
review a school district’s data to summarize and synthesize the student’s learning
outcomes in order to provide information to evaluate the program in terms of students’
scores of decoding, fluency and comprehension.
It is my hope that the information will be valuable for school teachers and
administrators for their decision making to select appropriate reading programs on based
on their students’ needs.
Statement of Purposes
The purposes of this study are to: (a) examine students’ reading outcome using
the Wilson Reading Program through a longitudinal review of 3 years of student
performance data in a school district and (b) evaluate the effect of the Wilson Reading
Program approach on improving student reading skills including word decoding and
overall MAP (Measurement of Academic Progress) scores.
Research Questions
The research questions are listed as follows:
1. Will overall reading skills of students in grades 5 to 8, as measured by
individual MAP scores, increase when the Wilson Reading Program has been
provided for 3 years?
7
2. Will decoding skills of students in grades 5 to 8 increase when the Wilson
Reading Program has been provided for 3 years?
3. Is there a correlation between decoding skills and MAP scores?
8
Chapter 2
Review of the Literature
Dyslexia is defined as a language-based learning disability resulting in one’s
difficulties with language skills, such as reading, spelling, writing and vocabulary
development. This disability may be found in learners with average intelligence.
According to Catts and Hogan (2003), language deficits are considered as the most direct
antecedent causal factor to identify a child’s problems, while early reading performance
is the most important indicator for his/her personal and academic success in school (Plaza
& Cohen, 2004; Shaywitz & Shaywitz, 2005; Vaughn & Bos, 2009). Thus, effective
reading instruction is important for teachers to provide in class to support students with
reading problems.
The National Reading Panel (2000) reported that the best approach to reading
instruction is to incorporate explicit instruction in phonemic awareness and systematic
phonics in order to improve fluency and enhance comprehension. The International
Dyslexia Association (2012) also recommended the use of explicit and systematic
practices to remediate reading for students with reading problems. It is found that
struggling readers and dyslexic children can be successful when an explicit and
systematic approach with skills built cumulatively is involved in instruction (National
Reading Panel, 2006). This chapter reviews reading instructional strategies that are
research-based to provide effective teaching and focus on explicit and systematic reading
programs such as Orton-Gillingham and other multisensory approaches.
9
The Orton-Gillingham Approach
The Orton-Gillingham approach is a systematic, sequential, multisensory,
synthetic and phonics-based approach to teaching reading (Ritchey & Goeke, 2006). It is
the basis for many other multisensory reading programs pioneered by Dr. Samuel T.
Orton, a physician in the early 1900’s. He believed that dyslexia was a language based
problem rather than a perception or vision deficit. It is noted that 50% of his patients not
only had reading difficulties, but also related language disorders including problems with
receptive and expressive language, passage comprehension, spelling and composition. It
is found that the cause of dyslexia had a biologic basis, and the treatment should be
educational, such as teaching the structure of the English language (Henry, 1998). Orton
suggested that “…the logical training for these children would be that of extremely
thorough repetitive drill on the fundamentals of phonic association with letter forms both
visually presented and reproduced in writing, until the correct associations were built up
and the permanent elision of the reversed images and reversals in direction was assured”
(1925, p. 614). This is the basis for Orton-Gillingham approach with a systematic and
explicit instruction.
Dr. Orton was further interested in the work of Grace Fernald and Helen Keller
(1921). They found: ”…lip and hand kinesthetic elements seem to be the essential link
between the visual cue and the various associations which make word meaning. In other
words, it seems to be necessary for the child to develop a certain kinesthetic background
before he/she can apperceive the visual sensations for which the printed words form the
stimulus. Even the associations between the spoken and the printed word seem not to be
fixed without the kinesthetic links” (Fernald & Keller 1921, p. 376). This became the
10
basis for his theories of a multisensory component for the instruction of struggling
readers.
Based upon his neurological theories on language and reading disabilities, Orton
was working with Anna Gillingham, a psychologist, to develop an instructional method
for struggling readers incorporating a systematic, explicit, multisensory approach to
teaching reading. Gillingham, along with her colleague Bessie Stillman, designed and
published instructional materials for teaching the 44 sounds or phonemes of the English
alphabet and morphemes, such as prefixes and suffixes and created common spelling
rules to apply to certain patterns and syllables based upon Orton’s theories (Henry, 1998).
The book that became known as the Orton-Gillingham manual was titled Remedial
Training for Children with Specific Disability in Reading, Spelling and Penmanship, and
was first published in 1935.
Together, Orton and Gillingham, in collaboration with Stillman, developed what
is now known as the Orton-Gillingham approach to teaching reading. This approach
incorporates all learning modes including visual, auditory, and tactile-kinesthetic. In their
teaching manuals, teachers were provided with numerous visual, auditory, and tactile-
kinesthetic opportunities in their instruction, then make connections between the visual
(language we see), auditory (language we hear), and kinesthetic-tactile (language
symbols we feel) pathways in learning to read and spell (2014).
Many multisensory-based supplemental reading programs have developed based
on the Orton-Gillingham (OG) approach. However, a review of the literature regarding
multisensory reading interventions shows a dearth of research in this area. What Works
Clearinghouse (WWC), established in 2002 as an initiative of the Institute for Education
11
Sciences (IES) at the U.S. Department of Education, is a resource for informed education
decision-making. The WWC identifies studies that provide credible and reliable evidence
of the effectiveness of a given practice, program, or policy (referred to as
“interventions”), and disseminates reports on the WWC website. The WWC found no
studies of the unbranded Orton-Gillingham-based strategies that fall within the scope of
the Students with Learning Disabilities review protocol meeting WWC evidence
standards. The lack of studies meeting WWC evidence standards means that, at this time,
the WWC is unable to draw any conclusions based on research about the effectiveness or
ineffectiveness of unbranded Orton-Gillingham-based strategies for students with
learning disabilities (http://ies.ed.gov/ncee/wwc/interventionreport.aspx?sid=528, 2010)
Despite the widespread inclusion of multisensory techniques in remedial reading
programs for dyslexic students, and strong beliefs among practitioners using these
techniques, there is little empirical evidence to support the techniques’ theoretical
premises (Moats & Ferrell, 1999). Although many of the programs incorporating Orton-
Gillingham strategies have been effective according to clinical reports, the specific
contribution of multisensory methods to the overall success of these programs has not
been adequately documented through rigorous manipulation of instructional conditions,
while subsequent measurement of student learning outcomes should be evaluated (Moats
& Farrell, 1999).
Alphabetic Phonics-Based Reading Programs
Alphabetic Phonics is an ungraded, multisensory curriculum based on the Orton-
Gillingham approach for teaching the structure of the English language. This phonetic
program involves instruction on reading, handwriting, spelling, verbal and written
12
expression, and comprehension by simultaneously engaging the visual, auditory, and
kinesthetic modalities (http://eps.schoolspecialty.com/EPS/media/Site-
Resources/downloads/program-overviews/s-alphabetic_phonics.pdf, 2014). The What
Works Clearinghouse (WWC) identified 13 studies of Alphabetic Phonics for students
with learning disabilities published between 1989 and 2009, however, none of these met
WWC standards.
Joshi, Dahlgren, and Boulware-Gooden’s study (2002) examined the efficacy of
the multisensory approach to improve reading skills at the first-grade level. Specific
reading skills included phonological awareness, decoding, and comprehension. A
multisensory method of instruction called Language Basics, incorporating the Orton-
Gillingham-based Alphabetic Phonics Method was provided to 56 students from four
first-grade classrooms in a district with approximately 40,000 students. None of the
participants had any known hardships in cognitive abilities, uncorrected vision, hearing
problems, and none were below average intelligence.
The instruments used included Test of Phonological Awareness (TOPA)
(Torgesen & Bryant, 1994); Word Attack subtest of Woodcock Reading Mastery Test-
Revised (WRWT-R) (Woodcock, 1987); and the comprehension part of the Gates-
MacGinitie Reading Test (GMRT) (MacGinitie & MacGinitie, 1989).
All the students were tested at the beginning of the fall semester. The control
group received instruction in the district-approved Houghton-Mifflin Basal Reading
Program while the multisensory reading instruction was given to the treatment group.
Both groups were taught 50 minutes daily in literacy activities. At the end of the
academic year, the same tests were used as post-tests. Results showed that the gain scores
13
of the treatment group were significantly higher than that of the control. Children in the
control group showed statistically significant gains in comprehension but not on
phonemic awareness or decoding, while the treatment showed statistically significant
gains in all three areas. It could be concluded that a multisensory approach to reading has
a more significant impact on the reading skills of struggling readers than the basal
approach used by the district.
Another Alphabetic Phonics-based study by Vickery, Reynolds and Cochran
(1993) combined the components of Alphabetic Phonics with additional materials. This
new approach was called Multisensory Teaching Approach for Reading, Spelling, and
Handwriting (MTARSH). The addition of the materials combined principles of
Alphabetic Phonics with Orton-Gillingham-Stillman methods for large, homogeneous
groups of children as well as with small homogeneous groups of students with dyslexia
and learning disabilities.
During the four years of this study, 426 students were trained by the MTARSH
Program; of these, 282 were enrolled in the remedial and 144 in the non-remedial classes.
Students in grade 1 received 25 minutes instruction and those in grades 2-6 received 55
minutes instruction in both the remedial and non-remedial classes daily. In remedial
classes the Multisensory Teaching Approach for Reading, Spelling and Handwriting,
MTARSH Program, was provided in reading, spelling, and cursive handwriting while the
non-remedial students participated in the same program in lieu of the regular state-
adopted spelling and handwriting programs, California Achievement Test (CAT) was
administrated to all students and their scores were compared to determine their growth.
Results showed that mean scores for both groups tended to be higher than that of the
14
baseline. In both remedial and non-remedial classes, students obtained higher scores
after being instructed by the MTARSH Program than the baseline. According to Vickery,
Reynolds and Cochran (1993), except for one comparison, CAT scores for classes in
remedial spelling were superior to those of the baseline. For the non-remedial spelling,
students scored lower in two classes below baseline, and one class below baseline in non-
remedial reading.
In both studies, a multisensory alphabetic phonics-based reading program
contributed to increases in reading skills. Joshi, Dahlgren and Boulware-Gooden’s study
(2002) showed positive gains in reading comprehension, phonemic awareness and
decoding while Vickery, Reynolds and Cochran’s study (1993) showed positive gains in
test scores on the California Achievement Test (CAT) for both remedial and non-
remedial students versus baseline. There were limitations to these studies. In the first
study, the number of participants was small and only included first grade students.
Further studies should be conducted to research the gains in reading skills realized by
older students in various grades using a multisensory approach to reading instruction.
The second study had a significant population size however the study only included data
from grades 4 through 6. In addition, there were no control or treatment groups; both
groups received the multisensory-based treatment. However, one group consisted of
remedial students while the other group consisted of non-remedial students.
Other Multisensory Teaching Approaches
According to Oakland, et al (1998), the Dyslexia Training Program (DTP), is a
recent adaptation of the Alphabetic Phonics curriculum. The DTP core curriculum
provides a cumulative series of 350 one-hour lessons starting with very basic skills (e.g.,
15
letter recognition) and extending sequentially to sophisticated levels of linguistic
knowledge. Oakland et al ‘s study (1998) involved 48 students with dyslexia. They were
assigned into 2 groups with the experimental group of 22 and the control group of 26.
These students were of average intelligence, with standard scores below 90 in reading
achievement on the Word Recognition subtest of the Wide Range Achievement Test-
Revised (WRAT-R, 1994) and demonstrated at least a 15 standard score discrepancy
between their WISC-R Full Scale IQ and their Word Recognition WRAT-R. Students in
the experimental group received instruction 5 days per week for approximately 10
months a year for 2 years. Students in the control group received reading instruction as
normally provided in their schools. Results indicated that students in the experiment
group made significant progress over two years whereas the control group did not.
Similar results were found on word recognition, however, initially the experimental
group performed lower than the control group but after two years, the students performed
better while the control group had little improvement. On the spelling test, the two groups
performed comparably and their performance did not improve significantly during the 2-
year period (Oakland, et al, 1998). It is found that students who were trained in the
Orton-Gillingham-derived method made significant gains in decoding nonsense words,
word recognition, and reading comprehension when compared with those without explicit
instruction.
Scheffel, Shaw and Shaw (2008) examined the efficacy of an Orton-Gillingham-
based supplementary reading program called the Institute of Multi-Sesnory Education
(IMSE). This reading program relies on directly teaching the fundamental structure of
language, beginning with simple sound-symbol relationships and progressing logically to
16
phonetic rules and word-attack strategies using the visual, auditory and kinesthetic-tactile
learning pathways to decode words. The purpose of this study was to examine the effects
of IMSE in the real world setting with teachers in the classroom using IMSE as a
supplemental intervention for the treatment group while teachers in the control group
used the district-wide reading curriculum only.
This study took place in a school district with approximately 18,000 students in a
suburban school district. The treatment group included 224 students while 476 students in
the control. Both groups received traditional reading instruction for 90 minutes per day in
a core reading program and treatment group students received an additional 30 minutes of
instruction in the supplemental reading program. Student progress was measured using
the Dynamic Indicators of Basic Early Literacy (DIBELS) reading assessment including
Phoneme Segmentation Fluency (PSF), Nonsense Word Fluency (NWF), and Oral
Reading Fluency (ORF) (pg. 142). Scores are organized by low risk, some risk and high
risk for all assessments. On the Phoneme Segmentation Fluency test, students in the
treatment group in the low risk category grew from 42 in the fall to 95 in the spring while
students in the treatment group performing in the some risk and high risk group in the fall
decreased from 39 to 4 and 18 to 0.9, respectively, in the spring. This showed a
significant increase in phoneme segmentation fluency from the fall to the spring for the
treatment group. The control group showed similar, but less significant gains, increasing
students in the low risk group from 39 to 93, while students in the some risk and high risk
had decreases from 39 to 6 and 23 to 2, respectively.
Similar results were found in the Nonsense Word Fluency and Oral Reading
Fluency subtests. Results indicated that although both the treatment and control groups
17
made significant gains on all three subtests, students in the treatment group receiving
supplemental multisensory reading intervention made more significant gains than those in
the control group.
Both studies, using a multisensory approach to reading, showed significant gains
in reading skills. In each study, students in the control group were taught using current
district-wide reading programs while the treatment groups received multisensory-based
reading instruction. Limitations of both studies include confounding variables such as
the Hawthorne effect as students in the treatment group received either an additional 30
minutes of reading instruction or intense multisensory-based instruction. This extra
attention from teachers may have had a positive effect on the student’s performance
regardless of the intervention. Further research needs to be examined, which would
eliminate or minimize variables such as the Hawthorne effect.
Wilson Reading Program
The Wilson Reading Program, based upon the principles of Orton-Gillingham,
was developed in 1988. It is a highly structured remedial program that directly teaches
the structure of the language to students and adults who have been unable to learn with
other teaching strategies, or who may require multisensory language instruction. The
Wilson Reading Program focuses on word studies, spelling, fluency and comprehension
to support children with reading and language difficulty. According to their description,
the Wilson Reading Program is a research-based reading and writing program, with a
complete curriculum for decoding and encoding (spelling) skills with phoneme
segmentation. The purpose of this program is to teach students fluent decoding and
encoding skills to the mastery level. Further, this program emphasizes the structure of
18
words in the English Language for students to master the coding skills for reading and
spelling. Unlike other programs that overwhelm the student with rules, the language
system of English is presented in a systematic and cumulative manner for easy
management with an organized, sequential system with extensive controlled text to help
teachers implement in class
(http://www.wilsonlanguage.com/FS_PROGRAM_WRS.htm, 2004).
Although the Wilson Reading Program is currently being used in classrooms
across the nation, there have been very few studies examining the effectiveness. WWC
found no studies of the Wilson Reading Program that meet their evidence standards for
students with learning disabilities. The lack of studies meeting WWC evidence standards
means that, at this time, the WWC is unable to draw any conclusions based on research
about the effectiveness or ineffectiveness of the Wilson Reading Program for students
with learning disabilities (http://ies.ed.gov/ncee/wwc/interventionreport.aspx?sid=546,
2010).
Several studies, although not meeting WWC standards, have examined the
efficacy of the Wilson Reading Program (WRC). One study, by Wilson and O’Connor
(1995), examined the efficacy of the Wilson Reading Program in the public school
setting. The purpose of this study was to determine whether the use of WRC
significantly improved student’s basic reading and spelling skills. A total of 220 students,
ranged from grades 3 to 12, were included in the study. Their total reading score on the
Woodcock Reading Mastery test was at least two years below their grade placement.
Their IQ scores ranged from low to high average. The Woodcock Reading Mastery-
Revised (WRMT-R) Word Attack, Passage Comprehension, Word Identification, and
19
Word Comprehension subtests were used to assess student performance. Each student
received two or three 1:1 lessons per week throughout the school year for an average of
62 lessons completed by the end of the year. Results indicated significant gains in Word
Attack, where the average gain was 4.6 grade levels. Significant gains in Passage
Comprehension were also achieved, where the average gain was 1.6 grade levels.
According to the authors, these students had made little or no gain in reading with
previous intervention methods despite years of pull-out services in special education
services (Wilson & O’Connor, 1995).
Stebbins, et al. (2012) examined the use of the Wilson Reading Program for
students with disabilities and evaluated their learning outcomes during two years. The
total of 20 students participated in this study with an IEP documenting the need for
specialized reading instruction, and their IQ measured one standard deviation below the
average. The Scholastic Reading Inventory (SRI) and the Woodcock-Johnson III Tests of
Achievement (WJ III) were administered to students three times over two years. These
Tests included word attack, reading fluency, basic reading skills, letter-word
identification and SRI. Students received four 45-minute sessions per week of direct
reading instruction with the WRS in a resource room. Results showed that as the WRS
was implemented, the mean scores on Word Attack increased substantially during the
first year, plateaued during the summer and fall, then rose slightly again in spring.
Results also showed a significant increase in scores from the fall to the spring of the next
year in the Reading Fluency, Basic Reading Skills, and Letter-Word Identification
subtests of the WJ III. Baseline data showed beginning reading levels below proficiency
for first grade, however, students ended as proficient readers at the second-grade level.
20
This study documented significant growth of the participants in their application of
phonic and structural analysis skills in order to pronounce nonsense words. Over the
course of the study, approximately one half of a standard deviation was gained in word
attack skills. Students also showed significant gains in their ability to quickly and
accurately read simple sentences, and their reading fluency improved significantly.
Although the participants’ basic reading skills scores changed significantly over time, but
the effects were minimal.
In both studies, a significant increase in reading skills was demonstrated. The
Wilson and O’Connor’s study had a significant number of participants while the
Stebbens, et al. study consisted of only 20 students. Both studies did not compare data to
a control group, but, rather, tracked student performance over time. Limitations of both
studies include the lack of a control group, number of participants, and age of the student
population. Further studies should be conducted to determine if significant gains would
also be realized by older students using this method.
Summary
Overall, Wilson Reading Program and other Orton-Gillingham-based reading
programs had a positive effect on certain reading skills, and the treatment effect ranged
from the mildly to significantly effective (National Reading Panel, 2006; Joshi, Dahlgren
& Boulware-Gooden, 2002; Vickery, Reynolds & Cochran, 1993; Oakland, et al 1998;
Sheffel, Shaw & Shaw, 2008; Wilson & O’Connor, 1995; Stebbens, et al, 2012). The
National Reading Panel (2000) identified five major components necessary for success of
reading: phonemic awareness, phonics, reading fluency, vocabulary and reading
comprehension. The Wilson Reading Program and other multisensory reading programs
21
have been shown to increase learners’ phonemic awareness and phonics skills that may
be the basis for other reading skills. Although there are some studies examining the
effectiveness of the Wilson Reading Program, limited research was found to evaluate the
program based on classroom evidence and student learning outcomes to lay the
foundation for more studies examining the effectiveness of such reading programs.
22
Chapter 3
Method Context of the Study
Setting. The study was designed to review 3 years of reading performance data of
students who were attending a middle school located in southern New Jersey. The school
is located in a district identified by the state Department of Education District Factor
Group (DFG) for the borough as “CD". The DFGs represent an approximate measure of a
community’s relative socioeconomic status (SES). From lowest socioeconomic status to
highest, the categories are A, B, CD, DE, FG, GH, I and J. Therefore, this district is in the
6th highest socioeconomic group of the 8, which means that this school is located in a
lower middle class suburban area.
According to Wikipedia database, as of 2011-12, the district had an enrollment of
5,921 students in preschool through 12th grade. The middle school had a total of 1,905
students in grades 5 through 8. Students with disabilities were placed in inclusion,
resource, and self-contained settings based upon individual students’ needs. It was the
district’s policy to place students homogeneously in classes and to start the Wilson
program in the 5th grade. A Wilson program coach was hired to support teachers in their
presentation in order to maintain the integrity of the Wilson method across the school and
class.
Participants. The Wilson Reading Program was considered a supplement to the
Language Arts curriculum in middle school. Students receiving this program intervention
in the middle school were included in the data. All students were identified as struggling
readers according to their performance on functional reading assessments, such as the
23
Wilson Assessment of Decoding and Encoding (WADE) or Word Identification and
Spelling Test (WIST).
A total of 38 students attending 7th and 8th grades during the 2014-2015 school
year were included. Of these, 30 were classified as having a Specific Learning Disability,
and 8 were general education students without disabilities.
All students received Language Learning with Wilson Reading Program in a
small group within the pull-out classroom setting 5 hours per week. Their teachers were
trained within the school district by a Wilson Reading Program consultant and were
required to become a Wilson certified teacher in order to start the instruction. The
instruction was conducted in a small group format with a student to teacher ratio of 5:1.
Measurement. Students were evaluated either by the Wilson Reading Program’s
Wilson Assessment of Decoding and Encoding (WADE), or Word Identification and
Spelling Test (WIST) at the beginning of the school year. The WADE assessed real word
reading, spelling, and nonsense word reading that are regarded as non-words but
following predictable phonic patterns. Its subtests cover sounds, and words, and sentence
spelling.
The WIST was used to assess word identification and spelling. Word
identification measures accuracy of sight recognition and a learner’s ability to apply word
attach skills, and sight recognition of irregular high-frequency words. Spelling
assessment requires a learner’s ability to spell words from dictation through recalling
correct letter sequences for familiar words or to apply sound/symbol relationships and
rules of English orthography, and recalling irregular high-frequency words. Pre- and post
WADE/WIST assessments were given to measure individual student’s growth with the
24
Wilson Reading Program intervention. In addition, each student in district was assessed
using the Measures of Academic Progress (MAP). Each year, MAP assessments are
administered in the fall and spring. The scores present current levels of performance in
the following areas: decoding and word recognition, comprehension skills, and an overall
reading score called RIT, which is an estimation of the instructional level of a student’s
progress or growth in reading. MAP assessments are designed to measure individual
student’s academic performance. The test questions are developed in a multiple-choice
format based on the student responses and current achievement level. The test length
varies by grade level with a range of 32 to 52 questions. The computer adjusts the
difficulty level of the questions as the test progresses. Based on each test score, teachers
are able to better assess student progress over the course of the year and determine where
students may need additional instruction.
Procedure. Students’ data scores were retrieved from the 2012-2013, 2013-2014,
and 2014-2015 school year. The scores of WADE/WIST, as well as MAP were reviewed
in order to assess the following:
1. comparing student performance scores in each grade level over three years
2. exploring a correlation between scores of decoding real words on the
WADE/WIST with performance scores of MAP in the areas of decoding and
word recognition
3. examining the correlation between the use of the Wilson Reading Program as
a reading intervention and its impact on students’ MAP scores
25
Data analysis. The means and standard deviations of student performance scores
were calculated in each area including decoding and word recognition, and overall
reading scores at each grade level.
An analysis of variance (ANOVA) with a repeated measure was used to compare
possible differences in student scores in decoding and word recognition, and overall
reading skills at each grade level respectively.
A post-hoc analysis was used to distinguish if there is a significant difference of 3
years’ student performance in each area at each grade level respectively.
Pearson product-moment of correlation coefficients was calculated to examine the
relationship between word reading and MAP scores over three years, as well as the
relationship of student scores of word reading and MAP.
26
Chapter 4
Results
Student performance over three years was compared to examine an increase in
Real Word Reading Accuracy after receiving the Wilson Reading Program intervention
as part of the Language Arts curriculum.
The analysis of variance (ANOVA) with a repeated measure was used to compare
possible differences in student reading scores in decoding and word recognition, and
overall reading skills at each grade level respectively. Table 1 shows the means and
standard deviations (SD) of Real Word Reading for each group of students over the past
three years. Students in Group 1 gained significantly higher scores in Year 2, presenting
a significant difference from Year 1 to Year 2 (F=46.7, P<.00 ). However, their scores
decreased in Year 3, with no difference from Year 1. Students in Group 2 showed a
similar pattern, scoring significantly higher in Year 2, with a significant difference from
Year 1 to Year 2 (F=5.8, p<.01). However, their scores also decreased in Year 3, with no
significant difference from Year 1.
27
Table 1
Means and Standard Deviations of Real Word Reading Scores of Students in Grade 5, 6, 7 and 8 for 3 Years
*Significant difference from Year 1 and Year 3 (F=46.7, p<.00). ** Significant difference from Year 1 and Year 3 (F=5.8, p<.01).
Table 2 shows the means and standard deviations of MAP scores with each group
of students over three years. Students in Group 1 gained significantly higher scores in
Year 2, presenting a significant difference from Year 1 to Year 2 (F=9.8, p<.002).
However, their scores decreased in Year 3, with no difference from Year 1. Students in
Group 2 showed a different pattern, scoring a slight decrease every year from Year 1 to
Year 3. However, none of these decreases was significant.
Group/Grade
Year Mean
1 SD
Year Mean
2 SD
Year Mean
3 SD
1 (5th, 6th, 7th)
41.4
6.4
84*
1.1
41.7
7.0
2 (6th, 7th, 8th)
65.7 4.2 73.5** 2.7 49.2 7.2
28
Table 2
Means and Standard Deviations of MAP Sores of Students in Grade 5, 6, 7 and 8 for 3 Years
*Significant difference from Year 1 and Year 3 (F=9.8, p<.002).
Figures 1 and 2 show the mean scores of Word Reading Accuracy and MAP
scores over three years. Both scores of students in Group 1 showed an increase from Year
1 to Year 2, and a decrease from Year 2 to Year 3, with a significant increase from Year
1 to Year 2 in Word Reading Accuracy and a significant increase from Year 1 to Year 2
in MAP scores. However, their scores decreased in Year 3 with no difference from Year
1 for both Word Reading Accuracy and MAP scores. The student scores of Word
Reading Accuracy in Group 2 showed an increase from Year 1 to Year 2, with a
significant difference, and a decrease from Year 2 to Year 3, with no significant
difference from Year 1. Group 2’s MAP scores showed a decrease from Year 1 to Year 2
and to Year 3, however, the decrease was not significant.
Group
Year Mean
1 SD
Year Mean
2 SD
Year Mean
3 SD
1
194.5
2.7
206.0*
1.7
192.2
13.1
2
196.5 2.2 194.1 2.4 183.5 13.0
29
Figure 1. Means of word reading accuracy versus MAP scores of Group 1
Figure 2. Means of word reading accuracy versus MAP scores of Group 2
66
196
73
194
49
183
0
50
100
150
200
250
Word Reading MAP
Year 1 Year 2 Year 3
41
194
84
206
42
192
0
50
100
150
200
250
Word Reading % Accuracy MAP Score
Year 1 Year 2 Year 3
30
In addition, Pearson product-moment analysis was used to examine the
correlation between the student scores of Real Word Accuracy and MAP for the three
years. Table 3 presents the results. There is a moderate correlation between Real Word
and MAP scores in Year 1 (r= .528) and a strong correlation in Years 2 and 3 (r=.856, r=
.770) for Group 1; while the correlation is strong in Year 1 (r=.908) and low in Years 2
and 3 (r= .013, r=.030) for Group 2.
Table 3 Correlation Coefficients of Real Word Reading versus MAP Scores of Students in Grade 5, 6, 7 and 8 for 3 Years
Table 4 presents the correlation of student scores of Real Word Accuracy and
MAP over three years. There is a strong correlation for Group 1 (r=.834) and a low
correlation for Group 2.
Group/ Grade
Year r
1 Level
Year r
2 Level
Year r
3 Level
1 (5th, 6th,
7th)
.528
Mode-rate
.856
Strong
.770
Strong
2 (6th, 7th,
8th)
.908
Strong
.013
Low
.030
Low
31
Table 4 Correlation Coefficients of Overall Real Word Reading versus MAP Scores of 3 Years in Grade 5, 6, 7 and 8
Group/Grade
r
Level
1
(5th, 6th, 7th)
.834
Strong
2 (6th, 7th,
8th)
.027
Low
32
Chapter 5
Discussion
The purpose of the present study was to examine the effects on the Wilson
Reading Program as a supplemental reading program for students with learning
disabilities. Students’ performance of a school district was reviewed and synthesized to
evaluate the program effectiveness in terms of scores of word reading, comprehension
(e.g. MAP), and overall reading skills.
The Wilson Reading Program provided as a supplemental reading program for all
school-aged children implemented in school since 1989. It has shown a positive impact
on the reading performance of students with a reading disability (RD) or learning
disability (LD) (Wilson & O’Connor, 1995, cited by Stebbins, Stormont, Lembke,
Wilson & Clippard, 2012). A key aspect of the program is to prepare educators for
effective implementation of Wilson’s multisensory structured strategies with fidelity for
successful reading instruction to the target student populations.
A total of 38 students attending 7th and 8th grade during the 2014-2015 school
year was included in this study. All students received Language Learning with Wilson
Reading Program in a small group within the pull-out classroom 5 hours per week. Their
teachers were trained within the school district by a Wilson Reading Program consultant
and were required to become a Wilson certified teacher in order to start the instruction.
The instruction was conducted in a small group format with a ratio of 5:1 for students and
the teacher.
Results showed that students in grades 5 to 8 increased their scores in reading and
comprehension when the Wilson Reading Program was provided for 3 years. When
33
implemented in the second year, the students gained significantly higher scores than the
first year. The students in Group 1, who attended grade 7 in the 2014-2015 school year,
increased their word reading and reading comprehension scores significantly from Year 1
to Year 2 (F=46.7, P<.00) , while decreasing slightly from Year 2 to Year 3. However,
their scores decreased in Year 3, with no difference from Year 1. The students in Group
2, who attended grade 8 in the 2014-2015 school year, increased their word reading
scores from Year 1 to Year 2 significantly (F=5.8, p<.01), while decreasing slightly from
Year 2 to Year 3. Group 2 showed a different pattern for reading comprehension, as
measured by MAP. Their scores decreased in Year 1, Year 2 and Year 3, although the
decrease was not significant.
Although Word Reading scores declined for both groups of students in Year 3,
their scores increased significantly in Year 2. This indicates that novelty of the program
may have a great impact on their reading performance, while in the 3rd year of the
intervention, students are familiar with the process, thus the program becomes more of
maintenance. Most students included in the study started the program with significant
deficits in word reading, while in their 3rd year the deficit has been largely reduced. It is
plausible that the Wilson Reading Program has an effect on struggling students to learn
word reading skills. Perhaps, it may be better to provide this program as an intervention
rather than maintenance for struggling readers.
There are several possible reasons for the significant gain in Real Word Reading
scores for Group 1 in Year 2. First, the 6th grade Post-Test, administered in Year 2, was in
an Elementary Version while the Post-Test in Year 3 the Secondary Version. The
difference of the two versions is that more complex vocabulary words were presented in
34
the Secondary Version, though the same phonic concepts are applied. However, this same
situation did not impact those in Group 2. Therefore, the Elementary versus Secondary
Version of the post-test does not seem as a definite explanation for the significant
variation in Real Word Reading scores, year over year, for Group 1.
Another possible reason for the significant gain in Real Word Reading scores for
Group 1 in Year 2 is the possibility that one of the teachers administering the Post-Test
either intentionally or unintentionally inflated scores. When examined at the individual
student level, many of the students’ scores from this teacher increased significantly from
Year 1 to Year 2, then decreased in Year 3, while the scores from the other three teachers
increased at a more expected rate. The inflated scores from one group of students might
make a significant difference in the mean scores of the entire group.
It is found that overall reading skills of students in grade 5 to 8, as measured by
individual MAP scores, did not consistently increase when the Wilson Reading Program
was provided for 3 years. Results show that student MAP scores in Group 1 increased
significantly from Year 1 to Year 2, while decreasing slightly from Year 2 to Year 3.
Student MAP scores in Group 2 show a decrease in Year 1, Year 2 and Year 3, but none
of the differences were significant. The significantly increased MAP scores of students
in Group 1 may attribute to the Wilson Reading Program intervention. However, there
was no significant difference for Group 2. Therefore, it is inconclusive if the Wilson
Reading Program has a positive effect on MAP scores to measure reading comprehension
skills. As MAP scores predict a product of many aspects of reading skills, such as
comprehension and vocabulary, it could be noted that the Wilson Reading Program may
not have a direct impact on reading comprehension and vocabulary learning because
35
students’ MAP scores did not increase after 3 years of the intervention with the students
in Group 2.
Results also showed a strong correlation between word reading and reading
comprehension scores in Year 2 and Year 3, and a moderate correlation in Year 1 for
Group 1. A low correlation between word reading and reading comprehension was found
in Year 2 and Year 3 but a strong correlation in Year 1 for Group 2. Overall, a strong
correlation of student mean scores over three years for Group 1 while a low correlation of
student mean scores over three years for Group 2.
One research question was asked about a correlation between decoding skills and
MAP scores. Results showed a range from a positive to an inconsistent relationship
between Word Reading Accuracy and MAP scores. For example, the Correlation
Coefficient of Real Word versus and MAP scores was moderate in Year 1 (r=.528) for
Group 1, and a strong correlation in Years 2 (r=.856) and Year 3 (r=.770). However, the
Correlation Coefficient of Real Word and MAP scores for Group 2 was strong (r=.908) in
Year 1 and low in Year 2 (r=.013) and Year 3 (r=.030). Group 1 showed a moderate to
strong correlation between Word Reading and MAP scores while Group 2 showed a very
low relationship. Although the findings are not consistent from one group to another,
there seems to be some correlation between Word Reading skills and MAP scores. This
demonstrates the possibility that the Wilson Reading Program may have an impact on
students’ overall reading scores, especially for those with learning disabilities.
Results showed an inconsistent correlation between Real Word reading and MAP.
The Correlation Coefficient of Group 1 (r=.834), was strong between Real Word reading
and MAP scores while the Correlation Coefficient for Group 2 (r=.027) was very low. It
36
is noted that younger students show more growth in MAP scores in one year than the
older. This may give schools a signal to start reading intervention as early as possible at
elementary levels, thus students’ comprehension would be enhanced simultaneously with
their vocabulary learning.
Limitations
There are some limitations in the study. First, the key element of the Wilson
Reading Program is to train and certify teachers so as to maintain the integrity of the
program. The school district involved in this study was in this training process. Thus,
students involved in the Wilson Reading Program during this study received instruction
from teachers who were relatively inexperienced in teaching such a multisensory
structured language program. A teacher’s experience may play a key role in the success
of the students and the implementation of the program.
Another limitation is the method for gathering data. In the study, each teacher was
required to administer the post-test to each student at the end of the year. This individual
testing administration and grading may impact student scores because of the teacher‘s
effect. In order to maintain consistency, one staff member should be responsible for
evaluating each student, year over year, to keep the consistent grading accuracy.
Problems with data collection in a longitudinal study would be the drop-out rate.
By the third year of data collection, several students were removed from the study due to
a change in class placement, individual student’s program needs, or absence. Thus, these
students were missed from the data collection, which might affect the mean scores in
both Word Reading and MAP.
37
In order to assess the effectiveness of the Wilson Reading Program, students
should all receive the same quality of instruction. Teacher training to prepare for highly
qualified teachers will definitely increase the effect of an intervention program such as
the Wilson Reading Program. It is recommended that school administrators should
consider appropriate training and time for teachers’ professional development when any
new programs are implement in the district.
Conclusion
It is estimated that approximately 85% of students with learning disabilities have
a primary problem with reading and related language skills
(http://www.ldonline.org/article/Dyslexia_Basics, 2010). According to Catts and Hogan
(2003), most poor readers have significant problems in learning decoding skills, and
children with reading disabilities (RD) have deficits in phonological awareness and
phonics skills.
Educators search for interventions to improve the basic reading skills of
struggling readers. The Orton-Gillingham approach is one such method to teach basic
reading skills. Based upon the principles of Orton-Gillingham, the Wilson Reading
Program was developed as a remedial reading program to teach students decoding and
encoding skills.
The present study examined the effects of the Wilson Reading Program on overall
reading scores over a three-year period measured by Word Reading Accuracy and MAP
scores. It was found that there was a significant increase in Year 2 for Word Reading
Accuracy (F=46.7, p<.00) and MAP scores (F=9.8, p<.002) for Group 1, while a
significant increase was found for Word Reading Accuracy (F=5.8, p<.01) but no
38
significant increase in MAP scores for Group 2. The correlation between Word Reading
and MAP scores was inconsistent, e.g. Group 1 had a moderate to strong correlation
while Group 2 had a low correlation.
Further studies are recommended to involve more students. It is also
recommended to increase the study to a 4 year study, thus yielding more information
about the effectiveness in the maintenance rather than in the intervention.
Results showed that the Wilson Reading Program increased student scores in
word reading in Year 2 of the study. This may indicate that the Wilson Reading Program
should be used as an intervention for struggling students with word reading deficits.
Further research on the effectiveness of the Wilson Reading Program may need to
validate the finding to improve word reading and reading comprehension skills of
students with reading problems or learning disabilities.
39
References
Bradley, L., & Bryant, P. (1983). Categorizing sounds and learning to read-a causal connection. Nature, 419-421. Campbell, M., Helf, S., and Cooke, N. (2008). Effects of adding multisensory
components to a supplemental reading program on the decoding skills of treatment resisters. Education and Treatment of Children, 31(3), 267-295
Catts, H. W. (2003). Language basis of reading disabilities and implications for early identification and remediation. Reading Psychology, 24(3-4), 223-246. Chall, J. (1983). Literacy: Trends and explanations. Educational Researcher, 3-8.
Fletcher, J. M., Shaywitz, S. E., Shankweiler, D. P., Katz, L., Liberman, I. Y., Stuebing, K. K., ... & Shaywitz, B. A. (1994). Cognitive profiles of reading disability: Comparisons of discrepancy and low achievement definitions. Journal of Educational Psychology, 86(1), 6.
Fox, B., & Routh, D. K. (1980). Phonemic analysis and severe reading disability in children. Journal of Psycholinguistic Research, 9(2), 115-119. Henry, M. K. (1998). Structured, sequential, multisensory teaching: The Orton legacy. Annals of Dyslexia, 48(1), 1-26. Joshi, R. M., Dahlgren, M., & Boulware-Gooden, R. (2002). Teaching reading in an inner city school through a multisensory teaching approach. Annals of Dyslexia, 52(1), 229-242. Leach, J. M., Scarborough, H. S., & Rescorla, L. (2003). Late-emerging reading disabilities. Journal of Educational Psychology, 95(2), 211. Oakland, T., Black, J. L., Stanford, G., Nussbaum, N. L., & Balise, R. R. (1998). An Evaluation of the Dyslexia Training Program A Multisensory Method for Promoting Reading in Students with Reading Disabilities. Journal of Learning Disabilities, 31(2), 140-147. Olson, R., Wise, B., Conners, F., Rack, J., & Fulker, D. (1989). Specific deficits in component reading and language skills Genetic and environmental influences. Journal of Learning Disabilities, 22(6), 339-348. Ritchey, K. D., & Goeke, J. L. (2006). Orton-Gillingham and Orton-Gillingham—based reading instruction a review of the literature. The Journal of Special Education, 40(3), 171-183.
40
Scheffel, D. L., Shaw, J. C., & Shaw, R. (2008). The efficacy of a supplementary multisensory reading program for first-grade students. Journal of Reading Improvement, 45(3), 139-152. Shaywitz, S. E., & Shaywitz, B. A. (2005). Dyslexia (specific reading disability). Biological Psychiatry, 57(11), 1301-1309.
Spafford, C.A. & Grosser, G. S. (2005). Dyslexia and reading difficulties: Research and resource guide for working with all struggling readers (2nd Edition), Boston: Pearson Education, Inc. 75 Arlington Street, Boston, MA 02116
Stebbins, M. S., Stormont, M., Lembke, E. S., Wilson, D. J., & Clippard, D. (2012). Monitoring the effectiveness of the Wilson Reading Program for students with disabilities: One district's example. Exceptionality, 20(1), 58-70. Torgesen, J., Schirm, A., Castner, L., Vartivarian, S., Mansfield, W., Myers, D., & Haan, C. (2007). National Assessment of Title I. Final Report. Volume II: Closing the reading gap--Findings from a randomized trial of four reading interventions for striving readers. NCEE 2008-4013. National Center for Education Evaluation and Regional Assistance.
Vickery, K. S., Reynolds, V. A., & Cochran, S. W. (1987). Multisensory teaching approach for reading, spelling, and handwriting: Orton-Gillingham based curriculum, in a public school setting. Annals of Dyslexia, 37(1), 189-200. Wilson, B. A., & O’Connor, J. R. (1995). Effectiveness of the Wilson Reading System used in public school training. Clinical studies of multisensory structured language education, 247-254.